Cylinder with Lock Series CNG

HS Auto switch Auto switch 12 8.5 24.5 16 A B A B 33 38.2 Auto switch mounting position Auto switch mounting height (mm) (mm) Auto switch model D-C7, C8 D-H7 D-H7W D-H7F D-H7BA D-H7 D-H7C D-H7W D-H7BA D-C7, C8 D-C73C D-C80C D-B5, B6 D-C73C D-C80C D-B5, B6 D-B59W D-G5NT D-H7C D-G5NT D-B59W D-H7F Bore size (mm) A A B A B A A HS HS HS B B B B A 20.5 (28.5) 14.5 (22.5) 17.5 (25.5) 19.5 (27.5)

Series MXP Precision Air Slide Table

Switch operating range Stroke (mm) 20 41 29 47 35 Type 25 46.5 34.5 30 55 43 10 31 19 15 36.5 24.5 A B A B A B MXP10 Auto switch MXP12 3 Screwdriver (Grip diameter 5 to 6mm) MXP16 2 Color indication solid state switch D-F9BW(V), D-F9NW(V), D-F9PW(V) mm Switch operating range Stroke (mm) 20 42 28 48 34 Type 25 47.5 33.5 30 56 46 10 32 18 15 37.5 23.5 A B A B A B MXP10 MXP12

Rotary Actuator: Free Mount Type/Vane Style Series CRBU2

CRB2 CRBU2 CRB1 MSU CRJ CRA1 CRQ2 MSQ Body (B) Thread 3 x Q1 For unit mounting MSZ Body (B) CRQ2X MSQX A port B port Through hole Body (A) MRQ Body (A) Hexagon socket head set screw M5 (Hexagon socket head set screws are not availableif Body (B) has no machined threads.)

Conforming to ISO Standard Solenoid Valve (with M12 Connector) Series EVS7-6/7-8/7-10 (Size 1) (Size 2) (Size 3) 1

(73) P = 56 60 (73) R 4.5 Manual override 18 13 13 B A B 14 12 P = 56 A PA B 18 A B 14 12 A PA B L1 L2 A B L1 L2 14 12 A PA B A B 14 SMC A PA B A B A PA 40 (53) L-side R-side L-side R-side (2n-1/8) D-side D-side 14 34 103 2 103 174.5 (Single) 4n-3/8, 1/2 2, 4 port 94 62 59 17 174.5 (Single) 216.5 (Double) 216.5 (Double) 221.5 216.5 (3 position) 221.5 216.5 (3 position) Bottom ported M12

JXCx-OMT0061CN

1 2 L A A-1 1 B (B-2) 6 1 1.5m B (A-2) 5 COM-A/COM B-3 3 3 3m COM-B/ A-3 4 5 5m (3) Shiel d Vcc (B-4) 12 GND (A-4) 13 A (B-5) 7 A (A-5) 6 S B (B-6) 9 B (A-6) 8 3 (14.2) (2 ) 2 1 (8) (1 ) B1 A1 (14) (18) (17.7) 6 5 (3 ) 2 1 B6 A6 15 16 (11) (30.7) 15.2 [820m] (1) (2) -L A B-1 2 A A-1 1 B (B-2) 6 8 8m* B (A-2) 5 COM-A/COM B-3 3 A 10m* COM-B/ A-3 4 B 15m* (3) Shield

MHC2

Operating equipment: MHC2-6D A part a b c d e f = 20 (mm) = 3 (mm) = 4 (mm) = 4 (mm) = 5 (mm) = 6 (mm) b c a e B part f d z f1 x.Calculate the inertial moment of the attachment. Assuming the attachment material is aluminium alloy (relative density=2.7), r1= 16.4 (mm).

MHC2

MHS Applicable Tubing MHC Description/Model Nylon tubing T0425 4 1.0 13 20 to 60 Nylon12 Polyurethane tubing TU0425 4 0.5 10 20 to 60 Polyurethane Polyurethane coil tubing TCU0425B-1 4 0.5 20 to 60 Polyurethane Soft nylon tubing TS0425 4 0.8 12 20 to 60 Nylon12 Specifications MHT Outside diameter mm Max. operating pressure MPa Min. bending radius mm Operating temperature C Material MHY MHW

SFOD-OMT0005CN

20m * Vcc B-4 12 GND A-4 13 A B-5 7 A A-5 6 B B-6 9 B A-6 8 3 (14.2) (2) 1 2 (5.5) (14) (1) B1 A1 5 6 (17.7) (3) 2 1 (18) A6 B6 (6.3) 15 16 (11) (30.7) -58- 14.3 ()[5m ] (1) (2) LE CP B A B-1 2 A A-1 1 (L) B (B-2) 6 B (A-2) 5 1 1.5m COM-A/COM B-3 3 3 3m COM-B/ A-3 4 (3) 5 5m Shield Vcc (B-4) 12 GND (A-4) 13 A (B-5) 7 A (A-5) 6 B (B-6) 9 B (A-6) 8 3 (4) S 4 (+) B-

Stroke Reading Cylinder and Counter

phase J B C D A t A COM COM COM B 12 VDC GND F.G.

SYJA3000

(B) 2 (A) 4 (B) 2 (A) 4 Operating pressure to 0.7 0.1 to 0.7 0.2 to 0.7 2 position single Pilot pressure range (MPa) 2 position single 1 (P) 3 (R) 5 (R) 1 (P) 3 (R) 3 position Ambient and fluid temperature (oc) Max.60 3 position closed center 3 position closed center Lubrication Not required (B) 2 (A) 4 (B) 2 (A) 4 Mounting position Free 300/50 Impact/Vibration resistance (m/s2) (1) 1 (P

Profile Design ISO/VDMA Air Cylinder Series CP95

80 18 16 11 66 86 18 47 12.5 40 50 60 63 14 15 100 18 20 11 76 96 20 55 13.5 50 60 70 71 15 19 Mounting type CR Rear clevis with ball joint A B C D EN ER F G E L M N P H R (mm) 0.2 maxi JS15H7 -0.1 maxi H11 H13 H13 0.5 0.5 0.5 32 32.5 10.5 22 10 14 15 30 10 6.6 45 10.5 5.5 5 40 38 12 25 12 16 18 35 10 6.6 55 11 5.5 5 50 46.5 15 27 16 21 20 40 10 9 65 15 6.5 5 51 19 63 56.5 15 32 16

HRX-OM-R016

Circulating fluid set temperature 20 READY band width (upper/lower temperature range) 2 READY time 60 sec. Preparation is completed 60 seconds after the circulating fluid temperature reaches 18oC to 22oC.

Industrial Filters

Note 1) Same as standard product except for cover assembly Note 2) 03, 04, and 06 indicate the relevant port sizes (Rc3/8, 1/2, 3/4). 108 108 AIR VENT M6 x P1 G1/2 AIR VENT M6 x P1 2 x RcD 2 x RcD C B A B OUT IN OUT IN C A DRAIN G1/4 DRAIN G1/4 (mm) (mm) A B D C A B D C Model Element length Model Element length A (L250) A (L250) 314 70 374 314 70 407 FGDC FGDE FGDC FGDE B (L500) B (L500)

3

flow ratio to be b = 0.3.

ISA2

Direct operation poppet Air, Inert gas 2.0 Al HNBR 20 to 60 10 to 60 (No freezing) Dustproof and jetproof (Equivalent to IP65) Environment with no corrosive or explosive gas 0.2 or less Free 30/150 or less 24/12 VDC, 100/110/200/220 VAC (50/60 Hz) 10% rated voltage B type VCA2: 6.5 W Valve type Fluid Withstand pressure MPa Body material Seal material Ambient temperature C Fluid temperature

SL5200

(ASME B40.1 Grade B or better) psig/bar 4) (No code) Accuracy Cleanliness No oil ASME B40.1 level IV No oil Brass Polycarbonate Brass Phosphor bronze B Case Window Socket Bourdon tube Material MPa MPA 1.14 (29) 2.28 (58) 2.1 (53.5) 2.12 (54) NPT 1/4 0.42 (10.5) inch (mm) 3) Part number of pressure gauge itself.

Vacuum Pad with Ejector ZHP Series Pad Diameter: ø63, ø80 ZK2 ZQ Ejector and pad are integrated. ZR Space saving and reduced piping labor! Bellows type with groove ZB ZA Two-stage ejector ZX More efficient ejector 30% reduced 50% increased ZM Air Suction

60 90 75 40 60 Suction flow 45 20 30 15 0 0 20 40 60 80 100 0 0 0.1 0.2 0.3 0.4 0.5 0.6 Suction flow [L/min(ANR)] Supply pressure [MPa] 256 Vacuum Pad with Ejector ZHP Series Construction A-A Component Parts t !

MHF2

force N Gripping force N 0.5MPa 0.5MPa 80 120 0.4MPa 0.4MPa 60 90 0.3MPa 0.3MPa 40 0.2MPa 60 0.2MPa 20 30 100 0 80 60 40 20 0 80 60 40 20 100 Gripping point L mm Gripping point L mm 2 Series MHF2 Model Selection Effective gripping force: Series MHF2 Step 2 External gripping Internal gripping The air gripper should be operated so that the amount of overhang "H" will stay within the range

Model Selection 1

Next, measure this flow rate at 80%, 60%, 40%, 20% and the upstream and downstream pressure. And then, obtain the sonic conductance C from this maximum flow rate. Besides that, substitute each data of others for the formula of subsonic flow in order to find b, then obtain the critical pressure ratio b from that average.

MXF

0 0 0 20 40 60 80 20 40 60 Load (N) Load (N) Load (N) 8-6-4 5 Low Profile Slide Table Series MXF Table Displacement due to Pitch Moment Load Table Displacement due to Yaw Moment Load Table Displacement due to Roll Moment Load Table roll deflection arrow A due to static roll moment applied at arrow F when Lr = (see table) and table is retracted.